Label-Free Differentiation of Cancer and Non-Cancer Cells Based on Machine-Learning-Algorithm-Assisted Fast Raman Imaging

被引:15
作者
He, Qing [1 ,4 ]
Yang, Wen [2 ]
Luo, Weiquan [3 ,5 ]
Wilhelm, Stefan [2 ]
Weng, Binbin [1 ]
机构
[1] Univ Oklahoma, Sch Elect & Comp Engn, Norman, OK 73072 USA
[2] Univ Oklahoma, Stephenson Sch Biomed Engn, Norman, OK 73072 USA
[3] Iowa State Univ, Agr & Biosyst Engn, Ames, IA 50010 USA
[4] Tufts Univ, Mech Engn, Medford, MA 02155 USA
[5] Univ Pittsburgh, Dept Radiol, Pittsburgh, PA 15260 USA
来源
BIOSENSORS-BASEL | 2022年 / 12卷 / 04期
关键词
Raman spectroscopy; PCA; machine learning; non-invasive imaging; fast Raman imaging; cancer cells; SKELETAL-MUSCLE; LEAST-SQUARES; SPECTROSCOPY; TISSUE; PCA;
D O I
10.3390/bios12040250
中图分类号
O65 [分析化学];
学科分类号
070302 ; 081704 ;
摘要
This paper proposes a rapid, label-free, and non-invasive approach for identifying murine cancer cells (B16F10 melanoma cancer cells) from non-cancer cells (C2C12 muscle cells) using machine-learning-assisted Raman spectroscopic imaging. Through quick Raman spectroscopic imaging, a hyperspectral data processing approach based on machine learning methods proved capable of presenting the cell structure and distinguishing cancer cells from non-cancer muscle cells without compromising full-spectrum information. This study discovered that biomolecular information-nucleic acids, proteins, and lipids-from cells could be retrieved efficiently from low-quality hyperspectral Raman datasets and then employed for cell line differentiation.
引用
收藏
页数:16
相关论文
共 59 条
[1]   Vibrational relaxation of β-carotene in acetonitrile solution in carrot in situ [J].
Abramczyk, H ;
Kolodziejski, M ;
Waliszewska, G .
JOURNAL OF MOLECULAR LIQUIDS, 1999, 79 (03) :223-233
[2]   Raman 'optical biopsy' of human breast cancer [J].
Abramczyk, Halina ;
Brozek-Pluska, Beata ;
Surmacki, Jakub ;
Jablonska-Gajewicz, Joanna ;
Kordek, Radzislaw .
PROGRESS IN BIOPHYSICS & MOLECULAR BIOLOGY, 2012, 108 (1-2) :74-81
[3]   Effect of Multiscale PCA De-noising in ECG Beat Classification for Diagnosis of Cardiovascular Diseases [J].
Alickovic, Emina ;
Subasi, Abdulhamit .
CIRCUITS SYSTEMS AND SIGNAL PROCESSING, 2015, 34 (02) :513-533
[4]   Detection and Differentiation of Bacterial and Fungal Infection of Neutrophils from Peripheral Blood Using Raman Spectroscopy [J].
Arend, Natalie ;
Pittner, Angelina ;
Ramoji, Anuradha ;
Mondol, Abdullah S. ;
Dahms, Marcel ;
Rueger, Jan ;
Kurzai, Oliver ;
Schie, Iwan W. ;
Bauer, Michael ;
Popp, Juergen ;
Neugebauer, Ute .
ANALYTICAL CHEMISTRY, 2020, 92 (15) :10560-10568
[5]   Applications of Raman spectroscopy in cancer diagnosis [J].
Auner, Gregory W. ;
Koya, S. Kiran ;
Huang, Changhe ;
Broadbent, Brandy ;
Trexler, Micaela ;
Auner, Zachary ;
Elias, Angela ;
Mehne, Katlyn Curtin ;
Brusatori, Michelle A. .
CANCER AND METASTASIS REVIEWS, 2018, 37 (04) :691-717
[6]   Picomolar detection of thrombin with fiber-optic ball resonator sensor using optical backscatter reflectometry [J].
Ayupova, Takhmina ;
Shaimerdenova, Madina ;
Sypabekova, Marzhan ;
Vangelista, Luca ;
Tosi, Daniele .
OPTIK, 2021, 241
[7]  
Balch C, 1992, CUTANEOUS MELANOMA, P163
[8]   Partial least squares for discrimination [J].
Barker, M ;
Rayens, W .
JOURNAL OF CHEMOMETRICS, 2003, 17 (03) :166-173
[9]   Rapid detection of antibiotic sensitivity of Staphylococcus aureus by Raman tweezers [J].
Bernatova, S. ;
Rebrosova, K. ;
Pilat, Z. ;
Sery, M. ;
Gjevik, A. ;
Samek, O. ;
Jezek, J. ;
Siler, M. ;
Kizovsky, M. ;
Klementova, T. ;
Hola, V. ;
Ruzicka, F. ;
Zemanek, P. .
EUROPEAN PHYSICAL JOURNAL PLUS, 2021, 136 (02)
[10]  
Boser B. E., 1992, Proceedings of the Fifth Annual ACM Workshop on Computational Learning Theory, P144, DOI 10.1145/130385.130401
123456